EGS India | Official Blog

3D PRINTING Since the evolution of 3d printing technology, creation of complex models have become an easy task for many industries. It is now possible to print and create various sizes from an eagle's beak to a dream car. Solidworks offers 3D Printing solutions , so that we can bring our ideas to life as 3D printed prototypes , just like the way we print documents in our office printer. Solidworks can also output .STL and AMF Formats that provide more information about the model being printed. No post-processing is required to define data such as the position of your model relative to the selected 3D printer, orientation, color, materials, etc. MOBILE ACCESS - CAD Mobile access - CAD is a new emerging trend that reflects the mobile application technology and impact of seamless communication to handle 2D & 3D design data across your mobile devices anytime, anywhere. Design on the go just got better with eDrawings mobile app. Solidworks eDrawings enables...

What is Random Vibration Fatigue? Structures or Mechanical components are subjected to random form of loading. Wind Loads, Wave Loads, Car engine operating on different moving roads are such examples. Random loading changes over time. Random vibration involves dynamic loading conditions. Random Vibration Fatigue Three methods to compute the expected damage ratio due to random loading Fatigue.   Narrow Band Method   Steinberg Method   Wirsching Method Loading and response are random processes Frequency based fatigue is required for such loading conditions. They use statistical measures for solutions. Requires a Dynamic random vibration study run for Fatigue calculation. New Fatigue study involves stress PSD(Power Spectral Density) What are Dynamic Loads ? Dynamic loads are classified to deterministic or non deterministic. Deterministic loads defined are functions of time and predicted precisely. They are harmonic, periodic o...

Overview St. Venant’s Principle The stresses reasonably distant from an applied load on a boundary are not significantly altered if this load is changed to a Statically Equivalent Load. The distribution of stress and strain is altered only near the regions of load application FEA Which Includes with a large number of parts, the new Submodeling feature allows you to improve the results at critical areas without having to rerun the analysis for the whole model. Refining the mesh for a selected portion of the model and rerunning the analysis only for the submodel saves computation time. Key Benefits of Submodeling Transfer of Complex Global Loads from the entire structure to Local Regions  to obtain Accurate Stress in a Local Region. Enables to experiment with Different Designs for the Region of Interest by refining mesh on the particular part Rerunning the analysis only for the submodel saves computation time

What is  SolidWorks   Simulation? SolidWorks Simulation virtually tests the product designs in real time conditions before manufacturing. With Simulation, designers and engineers can develop new concepts and innovate with design insights Why SolidWorks Simulation? SolidWorks Simulation helps the design engineers to validate for extreme loading conditions and various classes of materials in the real time conditions . It performs complex part and assembly problems within integrated SolidWorks environment. The tool helps the designers to make the decision for their exact product requirement. Designers can concentrate on various factors like Stress, Strain, Displacement, Factor of Safety and Temperature Distribution to obtain the optimised product design. This tool will also validate for non linear and dynamic problems and vibration effects on the designs. Benefits of SolidWorks Simulation Reduce prototyping costs Easily tackle the...

What is HVAC? HVAC stands for Heating, Ventilation and Air Conditioning. The purpose of HVAC system is to control the Temperature and Moisture of air. Air Handling Units (AHUs) used to cool, heat, humidify, dehumidify, filters and ventilate the air before it distributes to different areas of a building. Why SolidWorks Flow Simulation HVAC? HVAC System designer can efficiently and easily evaluate and optimize HVAC Systems with CAD embedded CFD, augmented with the HVAC application module. Designer can ensure Thermal Performance and design Quality at the start and avoid costly rework later on. How SolidWorks Flow Simulation HVAC helps designer? Human Comfort Factors - calculate eight comfort parameters (including 'Predicted Mean Vote' [PMV] and 'Predicted Percent Dissatisfied' [PPD]) to measure thermal comfort and identify potential problem areas Advanced Radiation - model absorption of radiation in solid bodies and definition of the radiation sp...